University of Tehran Press Iranian Journal of Soil and Water Research 2008-479X 54 6 2023 08 23 The Effect of Irrigation with Magnetically Effluent on Soil Chemical Properties, Water Productivity and Heavy Metals Uptake by Maize The Effect of Irrigation with Magnetically Effluent on Soil Chemical Properties, Water Productivity and Heavy Metals Uptake by Maize 877 893 93171 10.22059/ijswr.2023.357365.669477 FA Mojtaba Khoshravesh Department of Water Engineering, Faculty of Agricultural Engineering, Sari Agricultural Sciences and Natural Resources University, Sari, Iran. Masoud Pourgholam-Amiji Department of Irrigation and Reclamation Engineering, College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran. Journal Article 2023 04 06 This research was conducted to investigate the effects of using the treated magnetic effluent on chemical properties and heavy metals of soil, water productivity, and uptake<strong> </strong>of heavy metals by Maize plants. To conduct the research, a factorial experiment was conducted in the form of a randomized complete block design with three replications in two crop seasons (2021 and 2022) in Babolsar City. The treatments included irrigation with well water, irrigation with a mixture of 25% effluent and 75% well water, irrigation with a mixture of 50% effluent and 50% well water, irrigation with a mixture of 75% effluent and 25% well water, and irrigation with 100% effluent in conditions. All these were in the conditions of application of magnetic field and without magnetic field effect. The results showed that the effect of irrigation water and mixing of water and effluent on electrical conductivity, solutes, and heavy metals in the soil at different depths was significant at the probability level of 1%. On average, irrigation with magnetic water decreased electrical conductivity by 33.05%, lead by 37.45%, and cadmium by 65.28%. The results of maize water productivity showed that the effect of irrigation water and water and effluent mixing on biological, physical, wet forage, and dry forage productivity was significant and increased the values of biological, physical, wet forage, and dry forage productivity by 11.51, 10.92, 12.78, and 14.6%, respectively, compared to non-magnetic effluent. By using magnetic water, the concentration of lead, cadmium, zinc, and nickel metals in maize seeds decreased by 19.84%, 19.76%, 15.48%, and 23.01% respectively. The use of magnetic technology enables the optimal use of unusable water and increases the yield and water productivity of plants. Also, this technology can be effective in reducing the accumulation of heavy metals in the soil and maize plants using effluent. This research was conducted to investigate the effects of using the treated magnetic effluent on chemical properties and heavy metals of soil, water productivity, and uptake<strong> </strong>of heavy metals by Maize plants. To conduct the research, a factorial experiment was conducted in the form of a randomized complete block design with three replications in two crop seasons (2021 and 2022) in Babolsar City. The treatments included irrigation with well water, irrigation with a mixture of 25% effluent and 75% well water, irrigation with a mixture of 50% effluent and 50% well water, irrigation with a mixture of 75% effluent and 25% well water, and irrigation with 100% effluent in conditions. All these were in the conditions of application of magnetic field and without magnetic field effect. The results showed that the effect of irrigation water and mixing of water and effluent on electrical conductivity, solutes, and heavy metals in the soil at different depths was significant at the probability level of 1%. On average, irrigation with magnetic water decreased electrical conductivity by 33.05%, lead by 37.45%, and cadmium by 65.28%. The results of maize water productivity showed that the effect of irrigation water and water and effluent mixing on biological, physical, wet forage, and dry forage productivity was significant and increased the values of biological, physical, wet forage, and dry forage productivity by 11.51, 10.92, 12.78, and 14.6%, respectively, compared to non-magnetic effluent. By using magnetic water, the concentration of lead, cadmium, zinc, and nickel metals in maize seeds decreased by 19.84%, 19.76%, 15.48%, and 23.01% respectively. The use of magnetic technology enables the optimal use of unusable water and increases the yield and water productivity of plants. Also, this technology can be effective in reducing the accumulation of heavy metals in the soil and maize plants using effluent. Food security Improving Water Quality Magnetic Technology Mixing of Water and Effluent water resources https://ijswr.ut.ac.ir/article_93171_03893fe900219dba0ee3ca9655767568.pdf